Probe of CP Violation in e+e- -> ttbar Near Threshold
Abstract
We study how to probe the anomalous CP-violating couplings of top quark with photon, Z and gluon in the ttbar threshold region at future e+e- colliders. These couplings contribute to the difference of the t and tbar polarization vectors delta P and to the CP-odd spin correlation tensor delta Qij. We find that typical sizes of delta P and delta Qij are 5-20% times the couplings (dtgamma, dtZ, dtg) in the threshold region. Experimentally delta P can be measured efficiently using the CP-odd combination of the l+/l- momenta or of the l+/l- directions. We have similar sensitivities to both the real and imaginary parts of the couplings independently using the two components of delta P. Taking advantage of different dependences of delta P on the e+/e- polarizations and on the c.m. energy, we will be able to disentangle the effects of the three couplings dtgamma, dtZ, dtg in the ttbar threshold region. We give rough estimates of sensitivities to the anomalous couplings expected at future e+e- colliders. The sensitivities to dtgamma and dtZ are comparable to those attainable in the open-top region at e+e- colliders. The sensitivity to dtg is worse than that expected at a hadron collider but exceeds the sensitivity in the open-top region at e+e- colliders.
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